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mapping of bandgap and optical excitations. Current efforts at NIST aim to further develop the PTIR technique and apply it, in collaboration with several groups, to answer outstanding questions in
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of materials under operational conditions improves fundamental understanding and accelerates development of highly-reliable materials and devices. Applicants will work to develop relevant test approaches
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course-grained simulations of nanotubes with large adsorbed dispersant molecules in solution. It is expected that the challenging nature of these simulations will require the development of novel
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processes over such an extended time range is a formidable task for conventional molecular dynamics. We have developed a mathematical technique for simulation of phonon transport in nanomaterials based
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are critical for attaining measurement quality objectives and meeting the needs of the health and medical community. The isotope metallomics program at NIST focuses on analytical method development, rapid
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and then accessed by a team of experts. We are seeking candidates to address these challenges that range from algorithm development, simulation of reference data, algorithmic accuracy evaluations, design of
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NIST only participates in the February and August reviews. Project Description:NIST is developing a novel neutron interferometric phase imaging method using a grating-based, far-field interferometer
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Development of magnetism-based future electronics is fueled by demand for large memory capacity and high data processing rates. New technologies such as hard drives with bit-patterned media and magnetic memory
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relative to community goals; and interdisciplinary research and modeling, data visualization, and programming (software architecture, web application development). Buildings; Infrastructure systems; Social
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are developing object-oriented computational tools for the analysis of materials with complex microstructures. Starting from a digitized micrograph, the program identifies features in the image, assigns material